DE19960335B4 - hydraulic cylinders - Google Patents

Abstract

Master cylinder (1) for a hydraulically actuated clutch or brake of vehicles, wherein the master cylinder (1),
- A housing (2) made of plastic, provided with an inlet port (8) and a pressure port (9) and designed as a blind hole pressure chamber (10);
- One in the pressure chamber (10) axially displaceably inserted piston (4), which is via two fixedly arranged, axially staggered seals, namely a primary seal (11) and a secondary seal (12), sealed;
- A pivotally mounted on the piston (4) hinged piston rod (29) and
- A guide sleeve made of plastic (5), which is inserted into the housing (2), an axially from the housing (2) emerging approach (33) of the guide sleeve (5), the piston (4) in a neutral position at which adjusts a maximum volume of the pressure chamber (10) encloses
- Wherein the guide sleeve (5) position-oriented in the housing (2) used and the pressure chamber side with a piston (4) open annular recess (19) is provided;

Description

The The invention relates to a master cylinder for a hydraulically actuated clutch or brake of vehicles according to the preamble of the claim 1.

In Of the automotive technology, it is common practice, a device that to press by a force is, by means of hydraulic forces to use. For this purpose, so-called master cylinder are needed Also referred to as a working cylinder, and a mechanical Convert force into a hydraulic force. The master cylinder is over one Pressure line with the to be operated Device connected, for example, a slave cylinder.

Of the Working cylinder includes a housing made of plastic, the comprises a cylindrically shaped as a blind hole pressure chamber. Of the Pressure chamber is with an inlet connection and a pressure connection connected and serves to receive an axially displaceable inserted Piston. Axially offset from the pressure chamber, a guide sleeve is inserted in the housing, which is the piston encloses in a neutral position. On the piston is a swivel hinged piston rod, which connects to a manually operated Pedal device manufactures.

From the DE 38 16 608 A1 is a working cylinder of the type mentioned above. In the housing of this known working cylinder, a short guide sleeve is used, whose length is less than 30% of the longitudinal extension of the piston. For further support of the piston in the neutral position of the known working cylinder is additionally provided with a designated as a sheet metal pot additional retaining element which surrounds the outside of the piston. For sealing the piston or the guide sleeve, the known working cylinder comprises a total of three seals. A primary seal is fitted on the outside into the housing, with its radially inner sealing lip sealingly abutting against the lateral surface of the piston. The primary seal is preceded by a disc in the direction of the guide sleeve, which is provided for sealing back of the primary seal with radial circumferentially distributed channels. These channels can flow in the neutral position of the piston and at a pressure gradient between the reservoir and the pressure chamber of the working cylinder pressure medium.

From Starting from the inlet connection, there is a flow connection via a Annular gap formed by a radially stepped portion of Guide sleeve, the up to the seal back the primary seal extends and to which a radial channel of the washer connects, before the pressure medium over axial recesses of the piston can flow into the pressure chamber. Because the radial channels the disc correspond to the axial recesses of the piston is a position-oriented installation of the disc is absolutely necessary. A Incorrect assembly of the disc, in which the radial channels in the direction the guide sleeve aligned are prevented, an automatic flow in of pressure medium from the reservoir via the inlet connection. When secondary seal serves a frontally inserted in the guide sleeve U-ring seal whose inner sealing lip is sealingly supported on the piston. Furthermore, for sealing an annular gap between the guide sleeve and the housing wall a sealing ring provided, which is inserted in an annular groove of the guide sleeve is and sealing on the housing wall is applied.

A hydraulic cylinder of the aforementioned type is further from the DE 196 20 580 A1 known. Between the primary and secondary seal, a spacer ring is provided, which rests flat against the guide sleeve.

The EP 0 312 673 B1 discloses a spacer ring with axial projections which engage in a U-ring seal.

task It is the object of the present invention to provide a component optimized master cylinder to provide with an effective flow connection at a pressure difference between the reservoir of the pressure medium and the pressure chamber. Farther the working cylinder is a functionally reliable, easy installation enable. About that addition, he should be responsible for be suitable for mass production.

These The aforementioned problem is inventively by a master cylinder with the features of claim 1, at which centers the spacer on the step-shaped guide sleeve and to an axially projecting approach fitted into the recess of the guide sleeve is.

In order to is a position-oriented installation of the guide sleeve in the housing of the master cylinder given, so that one integrated in the guide sleeve End stop to allow and at the same time in the operation a contact or contact between the piston rod and the guide sleeve in the region of the piston rod outlet to prevent.

Advantageously, the spacer has radially aligned passages or recesses, which correspond to the inlet connection in the installed position of the spacer. Due to the centered mounting position of the spacer in the guide sleeve fails a misassembly, which required for the function of the master cylinder automatic Nachströmen of pressure Medium - at a pressure difference between the reservoir and the pressure chamber or in the presence of vacuum in the pressure chamber - prevented from the reservoir via the inlet port into the pressure chamber. The design of the spacer provides that adjusts an annular gap between the piston and the inner wall of the spacer in the mounting position. In the neutral position of the piston, an inflow cross-section also arises between the radially inner sealing lip of the primary seal and the lateral surface of the piston, which is also required for the automatic pressure medium flow at a pressure gradient between the pressure medium reservoir and the pressure chamber.

to Achievement of a directed installation position is the spacer according to the invention at least one side radially stepped so that the stepped portion in the installation position engages in the frontal recess of the guide sleeve. A wrong assembly is effectively prevented by this shape design of the spacer. The installation state of the spacer is also in a fully assembled Master cylinder determinable, since a radial approach of the guide sleeve only in the correct installation position of the spacer flush with a front side of the Master cylinder is aligned.

Further advantageous embodiments of the invention are the subject of the dependent claims 2 to 8th.

Of the Structure of the piston provides that this is a pot-shaped, closed steel bushing to the pressure chamber, fitted in the two plastic half-shells are, which by a radially inwardly directed curl at the open Side of the steel bushing are secured. The half shells made of plastic are with a dome-shaped Recess provided in which a spherical head of the piston rod held positively is. To assemble the piston rod in the piston are the following installation steps intended. After widening or spreading at one end over one Hinge-connected plastic retaining shells become the ball head the piston rod inserted axially into the dome of the holding shells. Subsequently, will the steel piston sleeve led to the half shells and then to secure all components an end crimp the socket made.

to Achieving an unobstructed flow connection from the inlet connection, d. H. from the pressure medium reservoir to the pressure chamber in a neutral position of the piston, d. H. at a pressure gradient between the reservoir and the pressure chamber is inventively provided that a Annular gap between the primary seal and adjusting the piston. According to the invention the piston is displaced so far in an end position that a set maximum volume of the pressure chamber. This results in a axial offset of the piston to the radially inner sealing lip of the primary seal, to form an annular gap. In an advantageous way can with it the pressure fluid from the reservoir via the inlet port and the radial recesses in the spacer to the piston flow to deflected from there in the axial direction through a first annular gap the spacer over the second annular gap extending between the radially inner sealing lip the primary seal and adjusts the piston, flow into the pressure chamber. This Flow channel can also for one reverse pressure medium flow from the pressure chamber to the reservoir used be, for. B. at a temperature-related volume compensation.

alternative or additionally is according to the invention an end portion of the piston facing the pressure chamber with circumferentially distributed arranged, axially extending longitudinal grooves provided. These longitudinal grooves grant a pressure medium flow in the neutral position of the piston even at a radial installation inner sealing lip of the primary seal on the piston. This piston position can, for example, at a unfavorable Tolerance between the components in the neutral position of the piston to adjust. The effectiveness of these grooves is improved by: this one longitudinal extension have the same or greater than the Wall thickness the piston shaft sleeve is designed.

In Further embodiment of the invention, the guide sleeve is only in a directed Installation position mountable. This is for example a radial outward directed approach of the guide sleeve, the in a longitudinal groove of the housing intervenes. Alternatively, a reverse arrangement may be provided be in which a radially inwardly directed nose of the housing in a longitudinal groove the guide sleeve engages. The directional mounting position allows a defined end stop for the clutch pedal. Furthermore this installation is required for the frontal, as a longitudinal slot trained recess or opening in the guide sleeve for the pivoting arranged, emerging from the guide sleeve Piston rod, so that this upon actuation of the working cylinder not in contact with the guide sleeve occurs.

To a further advantageous embodiment of the invention, the guide sleeve is the end provided with a radially inwardly directed board, the one Exemption security for forms the piston. This is in the preassembled state of the master cylinder of the Piston including Piston rod in the housing of the Secured working cylinder. Furthermore, in the installed state the pedal travel of the clutch pedal counter to the direction of actuation limited.

to Achieve a permanent and sealed attachment of the guide sleeve in the housing these components insoluble attached. In particular, a vibration or ultrasonic welding is suitable for this purpose.

Hereinafter, the invention in the description with reference to the 1 and 2 explained in more detail. Show it:

1 in a longitudinal section a master cylinder according to the invention
and

2 in a single part drawing the spacer according to the invention, which is inserted in the installed position between the primary seal and the guide sleeve.

In 1 is a master cylinder made of plastic 1 shown in a longitudinal section. The working cylinder 1 includes a housing 2 with a largely cylindrical, radially stepped recording 3 , which can also be described as a blind hole. A first section of the recording 3 with the smallest inner diameter serves to guide a piston 4 , In the section of the recording 3 with the largest inside diameter is a guide sleeve 5 used. Between the two sections of the recording 3 turns one as incremental 6 designated radial step, whose dimension corresponds to a wall thickness of the guide sleeve 5 , This results in a matching inner diameter between the guide sleeve 5 and the smallest diameter range of the recording 3 , This match ensures accurate guidance of the piston 4 regardless of its position in the housing 2 , For fastening the housing 2 this is with two fastening tabs 7 provided, whose bores serve to receive screws, with which the housing 2 for example, can be attached to a pedal device. Furthermore, the housing has 2 via an inlet connection 8th , which communicates with a pressure medium reservoir and a pressure connection 9 to which a pressure line can be connected.

The area of smallest diameter of the admission 3 forms the pressure chamber 10 coming from the walls of the housing 2 and in a direction axially from the end face of the piston 4 is limited. For sealing the piston 4 includes the master cylinder 1 a primary seal 11 as well as a secondary seal 12 , which are each designed as a U-ring seal. The primary seal 11 is outside on the pressure room 10 radially stepped portion on the inner wall of the housing 2 guided. With activated master cylinder 1 lies the radially inner sealing lip 13 the primary seal 11 sealing on a lateral surface 14 of the piston 4 at. The seal back 15 the primary seal 11 relies on a spacer 16 from, in the axial direction, ie in the direction of the guide sleeve 5 pointing, toothed is designed. This results in radial passages 17 whose position with the inlet connection 8th corresponds. The toothed section of the spacer 16 continues to form an axially projecting approach 18 which is in a frontal recess 19 the guide sleeve 5 is centered. Axially offset to the neck 18 serves the recess 19 the guide sleeve 5 continue to receive the secondary seal 12 whose sealing back 20 on one shoulder 21 the guide sleeve 5 supported.

The position of the piston 4 according to 1 corresponds to a neutral position, which occurs when the gearshift clutch is engaged. In this piston position corresponds to the pressure chamber 10 adjusting pressure largely to the atmospheric pressure. Due to an axially offset position between the radially inner sealing lip 13 the primary seal 11 and the piston 4 an annular gap arises 22 between these components. Thus, if necessary, ie with a required pressure medium equalization, the pressure medium from the inlet connection 8th about the passage 17 the spacer 16 and an annular gap 23 , - extending between the lateral surface 14 of the piston 4 and the inner wall of the spacer 16 adjusts, towards the primary seal 11 flow and pass over the annular gap 22 in the pressure room 10 , Additionally or alternatively to the previously described annular gap 22 includes the invention in the piston 4 introduced longitudinal grooves 24 one. This in a defined length range circumferentially in the piston 4 introduced longitudinal grooves 24 also allow unhindered afterflow of a pressure medium from the reservoir into the pressure chamber 10 , For the length dimension of the longitudinal grooves 24 It makes sense, this is equal to or greater than a wall thickness of the piston skirt sleeve 25 provided.

For the guide sleeve 5 a directional mounting position is provided. This is in the guide sleeve 5 a longitudinal groove 35 introduced into which a radially outward approach 35 of the housing 2 is fitted. In the in 1 pictured neutral position of the piston 4 this is largely of the guide sleeve 5 enclosed. This is the guide sleeve 5 with an approach 33 provided axially on the housing 2 exit.

The piston 4 is constructed in several parts and includes two plastic cups made of plastic 26a . 26b made of a piston skirt sleeve made of steel 25 are enclosed. At the pressure room 10 turned away end form the holding shells 26a . 26b a dome-shaped recording 27 , in the form-fitting a ball head 28 the piston rod 29 is held. To form an off safety guard for the piston 4 forms the guide sleeve 5 frontally a radially inboard board 30 ,

The 2 shows in a single part drawing the spacer preferably made of plastic 16 in a 3-D view. As disc back is an annular disc 31 , to which in one direction axially aligned webs 32 or attach projections. Here are the bars 32 arranged symmetrically over the circumference and form radially aligned passages 17 , The 2 further clarifies the radial gradation of the webs 32 to form an approach 18 with which the spacer 16 in the recess 19 the guide sleeve 5 is centered in the installation position.

Claims (8)

Master cylinder ( 1 ) for a hydraulically actuated clutch or brake of vehicles, wherein the master cylinder ( 1 ), - a housing ( 2 ) made of plastic, provided with an inlet connection ( 8th ) and a pressure connection ( 9 ) and designed as a blind hole pressure chamber ( 10 ); - one in the pressure room ( 10 ) axially displaceable piston ( 4 ), which has two stationary, axially offset seals, namely a primary seal ( 11 ) and a secondary seal ( 12 ), is sealed; A pivotable on the piston ( 4 ) hinged piston rod ( 29 ) and - a guide sleeve made of plastic ( 5 ), which are in the housing ( 2 ) is inserted axially from the housing ( 2 ) approach ( 33 ) of the guide sleeve ( 5 ), the piston ( 4 ) in a neutral position, in which a maximum volume of the pressure chamber ( 10 ), encloses - wherein the guide sleeve ( 5 ) Oriented in the housing ( 2 ) and pressure chamber side with a piston ( 4 ) open annular recess ( 19 ) is provided; A recess ( 19 ) used to receive the secondary seal ( 12 ), whose sealing back ( 20 ) on a shoulder ( 21 ) of the guide sleeve ( 5 ) is supported and whose radially inner sealing lip on the piston ( 4 ) is sealingly applied; - a spacer ( 16 ) between the primary seal ( 11 ) and the guide sleeve ( 5 ) is arranged in a position-oriented manner; - wherein the spacer ( 16 ) at least one radially aligned, with the inlet connection ( 8th ) related passage ( 17 ) which radially inwardly into an annular gap ( 23 ) between the piston ( 4 ) and the spacer ( 16 ) and to which in the neutral position of the piston ( 4 ) an inflow cross-section between a radially inner sealing lip ( 13 ) of the primary seal ( 11 ) and the piston ( 4 ) connected to the pressure chamber ( 10 ), characterized in that the spacer ( 16 ) on the guide sleeve ( 5 ) and an axially projecting approach ( 18 ) in the recess ( 19 ) of the guide sleeve ( 5 ) is fitted. Master cylinder according to claim 1, characterized in that the piston ( 4 ) a pot-shaped, the pressure room ( 10 ) closed piston shaft sleeve ( 25 ), in the half-shells ( 26a . 26b ) are used in plastic. Master cylinder according to claim 2, characterized by half shells ( 26a . 26b ), which for the positive fastening of a ball head ( 28 ) of the piston rod ( 29 ) a dome-shaped receptacle ( 27 ) form. Master cylinder according to claim 1, characterized in that the primary seal ( 11 ) in the housing ( 2 ) is arranged, that in the neutral position of the piston ( 4 ) between the radially inner sealing lip ( 13 ) of the primary seal ( 11 ) and the piston ( 4 ) an annular gap ( 22 ) forming a flow connection from the inlet connection ( 8th ) into the pressure chamber ( 10 ). Master cylinder according to claim 1, characterized in that the piston ( 4 ) at a pressure chamber-side end portion with circumferentially distributed longitudinal grooves ( 24 ) whose longitudinal extent is equal to or greater than a wall thickness of the piston skirt sleeve ( 25 ). Master cylinder according to claim 1, characterized in that the guide sleeve ( 5 ) to achieve a directional mounting position on the outside with a longitudinal groove ( 35 ) into which an approach ( 34 ) of the housing ( 2 ) engages positively. Master cylinder according to claim 1, characterized in that the guide sleeve ( 5 ) end a radially inboard board ( 30 ), which is a pull-out protection for the piston ( 4 ). Master cylinder according to claim 1, characterized in that the guide sleeve ( 5 ) insoluble by a vibration or ultrasonic welding to the housing ( 2 ) connected is.